Combined calculating and type-writing machine.



No. 820,879. PATENTED MAY 15,1906.

0. F. LAGANKB & J. A. SMITH. COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SIIPT.17.1903.

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COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT. 17. 1903.

15 SHEETSSHEBT 2.

No. 820,879. PATENTED MAY 15, 1906.

C. F. LAGANKE & J. A. SMITH. COMBINED CALCULATING AND TYPE WRITING MACHINE. APPLICATION FILED SEPT. 17, 1903.

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G. P. LAGANKE & J.,A. SMITH.

COMBINED CALCULATING AND TYPE WRITING MACHINE. APPLICATION FILED smmu, 1903.

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C. P. L AGANKE & J. A. SMITH. COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT. 17. 1903. v

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m h LI 8 No. 820,879. PATENTED MAY 15, 1906.

C. P. LAGANKE & J. A. SMITH.

COMBINED CALCULATING AND TYPE WRITING MACHINE. APPLICATION FILED SEPT. 17. 1903.

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COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT. 17, 1903.

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W 1 l-1-1 c was PATENTED MAY 15, 1906. C. P. LAGANKE & J. A. SMITH. COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT. 17. 1903.

15 SHEETS-SHBBT 8.

C John/A @1 1 I"; c as a o atromwq No. 820,879. PATENTED MAY 15, 1906. G. P. LAGANKE & J. A. SMITH.

COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT.17, 1903.

15 SHEETS-SHEET 9.

No. 820,879. PATENTED MAY 15, 1906.

. 0. F. LAGANKE & J. A. SMITH.

COMBINED CALCULATING AND TYPE WRITING MACHINE. APPLIOATIOK FILED SEPT.17, 1903.

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0. F: LAGANKE & J. A. SMITH. COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT. 17. 1903.

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No. 820,879. 'PATENTBD MAY 15, 1906. O. F. LAGANKE &: J. A. SMITH. COMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT. 17, 1903.

15 SHEETS-SHEET 12.

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harla Jb No. 820,879. PATENTED MAY 15 G. F. LAGAN'KB & J. A. SMITH GOMBINED CALCULATING AND TYPE WRITING MACHINE.

APPLICATION FILED SEPT.17. 1903.

' C/Zarles Willi/Ill lIlI/l/l/I No. 820,879. PATENTED MAY 15, 1906. C. P. LAGANKE & J. A. SMITH. NED CALCULATING AND TYPE WRITING MACHINE.

COMBI APPLICATION FXLED SEPT.17,1903

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UNITED STATES PlglENT O EIOE.

CHARLES FREDERICK LAGANKE AND JOHN ASBUBY SMITH, OF cLEvE- LAND, OHIO, ASSIGNORS TO ELLIOTT FISHER COMPANY. OF EW YORK, N. Y., A CORPORATION OFIDELAWAREF;

COMBINED CALCULATING AND TY;PE- -W:R l1'I NG MACHINE.

110.820.879. Specification of Letters Patent.

Patented May 15. 1906.

Application filed September 17, 1903. Serial No. 173,614.

v which the following is a specification.

T his invention relates to a combined calculating and type-writing machine of that type disclosed in our copendingapplication, Serial No. 120,925, for Letters Patent.

The primary object is to simplify and generally improve tne former construction in order to facilitate its manufacture and repair I and to minimize the possibility of error in the computations eflected.

Subordinate to this primary object are various others, one of which is to facilitate the attachment of the computing device to the type-writing machine by mounting the mastenwheel of the former and all Of its operat ing connections upon the detachable cover of the carriage.

Another object is to simplifvthe means for preventing the retraction of the masterwheel operating connections when a key rises from an incomplete stroke. as well as the means for disconnecting the operating connections of the totalizer from the keys to permit the unrestricted independent use of the type-writer.

A further obiect is to provide decimalspacing means for automatically spacing the machinc over the decimal-point.

Still another object is to provide means for accurately locating the computing device with respect to the particular column concerned in the contemplated computation.

Still another object is to improve the construction of the computing device or totalizer by the provision of novel positiwly-operated and'readily-accessible transfer mechanism and locating means which will insure proper movement of the denominational members or number-wheels and the accurate location thereof with the digits properly alined before the sight-glass.

Another object of the invention isto improve the touch by providing for --thev automatic easing of the wheels to minimize the of wheels are moved in unison.

. burden imposed upon the key when a series A still rurther object of the-invention is to improve the resetting mechanism for restoring the number-wheels to zero.

Other objects subordinate to those enumerated will appear as the necessity of their accomplishment is developed during the course of the succeeding description of the illustrated embodiment of the invention.

' In the accompanying drawings, Figure 1 is a plan View of our combined type-Writing and computing machine, a portion oi the machine-frame being broken awavJ Fig. 2 is an enlarged sectional view on the line 2 2 of Fig. 1, certain of the parts being shown in elevation and others broken away, this View being designed to show the key-action and to illustrate the relation thereto of the opera ting connections of the computing device. Fig. 3 is another enlarged sectional view on the line 3 3 of Fig. 1 ,this view being similar to Fig. 2, but looking in the opposite direction with the elements of a computing device and Fig. 4 is a plan view of the casing-top in- -verted to show such of the operating connections as are mounted thereon. Fig. 5 is a front elevation of the casing-top and the mechanism mounted thereon. Fig. 6 is a sectional elevation-showing mechanism for reventing reverse rotation of the master-w eel and'the checking-arm which prevents. overrunning of the master-wheel. Fig. 7 is a sectional elevation of the cam-lever for breaking the o erative connection between the keys and t e computing device to permit the independent iperation of the type-writing mechanism. ig. 8 is an enlarge plan view of the casing to or cover and of the mechanism supports thereon. Fig. 9 is a sectional-elevation showing th; master-wheel and its opits actuating mechanism exposed toshow'the. complete connection from the operating-E keys to the digit carriers or number wheels;

crating connections and also showing the mechanism when a key rises-from an lncomplete stroke. Fig. 10 is a detail perspective view of said dog. Fig. 11' is a rear elevation of the carriage and the mechanism mounted ciated therewith, the

thereon. Fig. 12 is a side elevation of the actuator-frame and certain of the parts assorojected position of the stop for locating t e computing device opposite a column of work being shown in dotted lines. Fig. 13 is a detail sectional elevation showing the mounting of the locating or column-selective stop. Fig. 14 is a sectional view through a portion of the carriage and the master-wheel operating connections with a portion of the computing device arranged in juxtaposition. Fig. 15 is a sect-ional view through the master-wheel and its mounting, the operating-pinion, and the intermediate clutch. Fig. 16 is a detail view of the combined operating-pinion and clutch member. Fig. 17 is a sectional view through the carriage-casing, showing in elevation the escapement of the carriage-feeding mechanism and the relation thereto of the decimalspacing means; Fig. 18 is a detail perspective view of the decimal-space trip-arm and its connections: Fig. 19 is a detail view of the master-wheel check-arm. Fig. 20 is a detail sectional elevation showing the mounting of the arms on the rock-shaft. Fig. 21 is a detail perspective view of the shaft and arms. Fig. 22 is a detail perspective view of the plate 77. Fig. 23 is a perspective view, on an enlarged scale, showing a portion of the carriage-casmg ed thereon an contributing to the utilization of the type-writer as a calculating-machine. Fig. 24 is an enlarged perspective view of the computing device designed particularly to show the various elements with which those mounted on the carriage-casing are designed to cooperate. Figs. 25, 26, and 27 are longitudinal sectional views through the com uting device, but showing the transfer mec anism in progressively different positions. Fig. 28 is a front elevation of the computing device complete. Fig. 29 is a top plan view of the same with the top wall of the casing removed. Fig. 30 is a transverse sectional view on the line an ac ofFig. 29 with the top wall in place. Fig. 31 is a transverse section on the line y y of Fig. 29, and Fig. 32 is a similar view on the line 2 z of Fig. 29. Figs. 33 and 34 are detail perspective views of one of the denominational members,number-wheels, or digit-carriers. Fig. 35 is a similar view of one of the wheel-locaters. Fig. 36 is a detail perspective view of the vibrator which insures the engagement of' the transfer-dogs with the wheels. Fig. 37 is a similar view of the rocker for elevating or retracting the transfer-levers. Figs. 38, 39, 40, 41 are longitudinal sections through the computing device, showing the resetting mechanlsm in progressive positions. Fig. 4.2 is a detail perspective view of the resetting-lever and the mechanism associated therewith for operating the rocker which retracts the transferlevers. Fig. 43 is a detail perspective View and the various parts mount-v of one of the transfer-levers. Fig. 44 is a side elevation of one of the levers, partly in section,.to show the mounting of the transferdog. Fig. 45 is a detail erspective view of the computing-device-locl ing lever.

Like characters of reference are used to designate corresponding parts throughout the several views.

While the resent invention may in certain as ects t ereof be viewed as a calculating an computing machine solely, it is more particularly directed to the improvement of a combined type-writing and computing machine of the general character shown and described in our copending application, Serial No. 120,925.

The present computing device, like that shown in the application aforesaid, has been designed with special reference to the equipment of a type-writing machine of the fiatplaten type exemplified, for instance, in Patent No. 573,868 to R. J. Fisher and characterized by a flat platen and a traveling carriage movable bot'h longitudinally and transversely of the platen and carrying printing mechanism including both the letter and numeral types.

The general organization of the Fisher typewm'ter.-The Fisher type-writer, which is 1ncluded in the illustrated organization of my combined type-writing and calculating machine, embodles a mac inc-frame 1, mounted to travel longitudinally of a flat )laten 1, the writin -surface of which is in icated in Fig.2. T e frame 1 is provided with front and rear carriage-guides 2 and 3, which slidably support a carriage 4, movable transversely of the platen and supporting the printing mechanism. The upper portion of the carriage 4 is in the form of a casing 5, above which are exposed the numeral and letter keys 6 and 7, 'having'stems 8 connected at their lower ends to key-levers 9, fulcrumed within the carriage-casing and connected in turn through draw-wires 10 with downwardly-swinging type-bars 11, carried by a type-ring 12, endent from the carriage-casing, as is wel understood in the art. (See Fig. 2.) The carriage 4 is moved to the right by carriage-propelling mechanism, including carriage-tapes 13, connected at their inner ends tothe carriage and at their outer ends to spring-drums (not shown) mounted on the machine-frame.

The step-by-ste advance of the carriage in the direction of etter-spacing'is controlled by carriage-feeding mechanism including in its organization racks 14, associated with the carriage-guides 2 and 3 and meshing with carriage-pinions 15, fixed to a feed-spindle 16, extending transversely of the carriage .(see Fig. 2)' and carrying the escapementwheel 17, Fig. 17. ThlS escapement-wheel is in the form of a ratchet and constitutes the rack element of an esoapement, by the operation of which the step-by-step advance of the carriage under the impulse of the carriagepropel ing mechanism is permitted. In addition to the escapement-wheel- 17 the escape ment of the carriage-feeding mechanism 1ncludes holding and spacing dogs 18 and 19, disposed for alternate en agement with the teeth ofthe wheel 17. ormall'y, as shown in Fig. 17, the holding-dog engages the ratchet-wheel and holds the same, thus preventing the forward movement of the carriage. When, however, the dogs are swung, the holding-do moves out of engagement with the wheel but before the disengagement is effected the spacing-dog moves into engagement. Such movement of the parts is effected by the depression of a key. When the key is released, however, the movement of the dogs is reversed, and while the spacingdog is moving out of engagement with the wheel and before the holding-dog moves into en agement therewith the wheel is ermittel? to rotate an almost ina precia le distance, so that the holdingog instead of moving backinto engagement with the flat face of the tooth before engaged by it will engage the next succeeding tooth when the spacing-dog has moved back sufficiently to release the wheel, and thus permit the partial rotation thereof and the advanceof the carriage the distance of one letterspace.

The operating mechanism between the keys and the escapement includes an arm 20, extending from the spacing-dog and connectedby a link 21 to an arm 22, projecting from a rock-shaft23 extending longitudinally of the carriage adjacent to its rear wall. (See Figs. 2, 3, and 17.) This rock-shaft is rocked or vibrated by key-yokes 24, mounted to swing within the casing and arranged to be engaged and swun by a pin 25 (one of which is carried by each ey-stem) just as the key reaches the limit of its downward movement. It will thus be apparent that the complete depression of a key will effect the swingin of the yoke 24 to rock the shaft 23, and thus shift the escapement-dogs, the release of the key serving to permit the dogs to swing back for the purpose of effecting the feed of the carria e.

As t e Fisher machine is arran ed'to print upon a work element supporte in a flat spread-out condition upon the platen, it is particularly well adapted for tabulation, and it therefore embraces in its general organization what is commonly known as tabulating or denominational selective mechanism. This mechanism is desi ned to facili- .tate the rapid -movement o the carriage ing-pomt opposite the denomination or or der in which 1t is desired to make an entr This tabulating mechanism in the ilus-- trated embodiment thereof (see Fig. 1) inin detail.

cludes a straight scale-bar 26, secured to the front carriageguide 2 and provided with the usual space-scale, over which the carria e indic ator or pointer moves in amanner we lunderstood. The scale-bar is provided with a longitudinal series of pin-openings 27, corthe column-stop to arrest the carriage in t e desired position. These stops are ordinarily key-operated, the key 31 of the units-catch being so arranged that by its depression the catch will be thrown down into a path ob structed by the column-stop for the purpose of arresting the carriage with the printingpoint thereof located in the units position with respect to one of the columns on the sheet. It will of course be understood that these catches are operatively connected to a release-lever 32, (see Fig. 17,) which serves when vibrated to swing both dogs of the escapement out of engagement with the wheel 17, so as to releasethe carriage, and thus permit its free advance until arrested by the tabulating mechanism.

Since the tabulating mechanism and its connections have only been indicated in a general way in the accompanying drawings, reference is made for a further detailed 'disclosure to Patents No. 666,762 to Charles F. Laganke and No. 723,937 to J. A. Smith.

The general relation 0 the computing'device to the type-writing 'mach'ine.HaVing now recited the general organization of the typewritin machine with especial reference to those eatures thereof which are more or less brackets 34, extended upwardly and rearwardly from the carriage guidefi to dis ose the bar substantially in the horizontal plane of-the top of the casin 1,5. The bar 33' is of dovetail cross-sectiona contour and engages a correspondingly-formed guide-groove 3.5 in the base 36 of the casing 37 of the register,totalizer, or computing device.

The casing 37 contains the computing and registering mechanism, to be hereinafter described, and is adjustable along the bar 33 to dis ose said mechanism opposite thecolumn to e totalized. The computing and registerin mechanism within the casing 37 is spee eifica ly novel and will be hereinafter described ficient to direct attention to the factthagtit' includes, as is usual in this class of devices,=-a"' For the present, however, it issuf series of denominational members, digit-canriers, or number-wheels a, b, c, d, e, f, g, h, and i designed to register hundredths, tenths, units, tens, hundreds, thousands, tens thousands, hundred-thousands, and millions, the tenths-wheel being of double Width to accommodate the decimal-space. Each of these wheels is provided upon its peri hery with the digits 0 to 9, inclusive, pre erablyformed in or upon the end faces of the peri heral teeth, one digit of each wheel being 0 servable through a magnifying sight-glass 38, extending across the casing 37 at its upperfront corner. (See Fig. 24.) Each carrier or wheel is arranged to make nine-tenths of a complete revolution independently of the other wheels of the series to present its digits successively before the sight-glass and during its last increment of movement engages the wheel to the left and moves it a single increment or step, after which the first-named wheel may a ain rotate independently for nine-tenths of a complete rotation before again advancing the adjacent wheel at theleft a single step. Since the wheels of the entire series are related to one another in the manner stated, it follows that mechanical computations in addition may be effected by moving the wheels corresponding in denomination or order to the denomination or order 50f. the digits composing the numbers to be added a number of increments corresponding to the unitary values of such digits. Thus suppose itis desired to add 432- and 234. The ciphers of all of the wheels bein disposed opposite the sightlass, the wheel 0 the third order--to-wit, the iundreds-wheel e-Will be rotated four increments, resenting the digit 4 opposite the sightlass, the tens-wheel d of the second order will be rotated three increments, and the units-wheel c of the first order two increments or ste s. The numerals observable through the g ass will now read 432, corresponding to the first number. The second number 234 will now be added by imparting to the third-order wheel e two addi tional increments of movement, to the second-order wheel (1 three increments, and to the first order wheel 0 four increments, thus causin the numerals presented before the sight-g ass to read 666, the sum of the two numbers.

Since the numerical value of each order or denomination is ten and since each wheel during its last increment of movement will, as heretofore explained, impart a single increment of movement to the next adjacent wheel to the left, it follows that when the number registered reaches-the limit of the numerical value of a given order the rotation of the adjacent wheel to the left will effect the registration of a di it of the next higher order.' Thus, assuming the first order or units wheel 0 to be given nine-increments of movement, causing the presentation of the digit 9 opposite the sight-glass, the next or tenth increment of movement will present the 0 on said wheel before the sight-o ening, and by thev automatic engagement 0 the wheel a with the wheel d of the next higher or second order the latter wheel will be moved a single increment to present the digit 1 of the second order before the glass, the presentation of the two di its 0 and 1 in the first and second or ers effecting the registration of the number 10.

The mechanism contained in the casing 37 constitutes the computing device, which, as we have seen, is mount-edindependently of the carriage of the ty e-writing machine and is designed to be shi ted to a position, opposite any desired column on the work-sheet. The means for retaining the computing device at any desired oint of the guide-bar 33 will be hereinafter escribed.

The master-wheel and its operat'in connecti0ns.Upon the carriage 5 of t e typewriting machine is mounted that portion of the computing mechanism which constitutes the actuating means for the computing device proper, whic'h, as we have seen, is mounted independently of the carriage. The primary element of this actuatin mechanism is a master-Wheel 39, presentab e to the numher-wheels in succession by the step-by-step advance of the carriage and designed to rotate such wheels in roportion to the numerical value of the digits embraced by the computation. The contemplated means for rotating the master-wheel includes the numeral-keys of the type-writer, although it is obvious that viewing the invention as a calculating-machine it is immaterial whether the keys perform any function other than the actuation of the master-wheel. By reference more particularly to Figs. 3, 5, 6, 8, 9, and 15 it will be observed that the master-wheel .39 is rigidly mounted u on a short shaft 40, having its opposite an s supported by the vertical sides of'what may be termed the actuator-frame 41, rigidly mounted in any suitable manner upon the removable top or cover 42 of the carriage-casing adjacent to the rear edge thereof. From one side of the masterwheel extends a toothed clutch-flange 43, Figs. 8, 11, and 15, formed with ratchetteeth arranged to be engaged by whatmay be termed the master-wheel clutch 44, slidably and rotatably mounted on the shaft 40 and designed to effect an operative 00111180";

tion between the master-wheel 39 and an o crating-pinion 45, rotatably mounted ont e shaft 40. The master-wheel clutch is constantly urged toward its engaging position by springs 46, suitably interposed between the pinion and the clutch, and in order that the connection between the pinion and the clutch may be maintained regardless of the movement of the clutch into and out of engagement with the master-wheel the pinion is the master-wheel, for the reason t at the inclined faces of the teeth on ,the,clutch will ride upon the inclined faces of the teeth formed on the flange 43, thus urging the clutch laterally against the resistance of the s rings 46 and permitting the rotation of the c utch with the pinion and independent of the master-wheel. The operating connection between the,numeral-keys and the pinion includes an actuating-lever 49, (see Fig. 3,) mounted on a short shaft 50 in the actuator-frame and provided with a retractingspring 51', encircling the shaft and tending to move the lever to its retracted position. The lever 49 is fulcrumed adjacent to its front end and is formed at its opposite extremities with toothed segments 52 and 53, the former meshing with the pinion 45 and the latter with a toothed segment or rack 54,'carried at the extremity of a rack-arm 55, projecting through the top of the carriage-casing from a rock shaft 56, mounted in bearing-brackets 57, pendent from the removable top or cover 42 of the carriage-casing. This rock-shaft constitutes a motion-transmitting element mounted within the carriage partial rotation of the shaft 56.

casing and common to all of the numeralkeys-that is to say, the numeral-keys are each designed to impart a differentdegree of movement to the rock-shaft 56 for the purpose of transmitting through the latter and its intermediate connections such movement to the master-wheel as will serve to advance a digit-carrier or number-wheel a number of increments corresponding to the unitary value of the key.

The operating connections between the keys and the rock-shaft comprehend a series of loose arms 58, extending laterally from the shaft and having angular ends 59 dis posed for engagement by the key-stem pins or projections 25. (See Fig. 2.) Adjacent to each loose arm 58 the rock-shaft 56 is equipp'edwith a comparatively short fixed arm 60, rovided with a lateral extension 61, dispose under the adjacent loose arm so that when the latter isswung down by the depression of a key it will engage the fixed arm, and thus swing the latter and effect-the Normally a'll of-the key-stem ins 25 are in engagement with the top 0 the carriage-casing, as shown in Fig. 3, thereby serving to limit the upward movement of the keys. Since the movements of all of the keys are uniform and since the key-stem pins are all normally disposed in the same horizontal plane, it is e in different horizontal planes.

(See Figs. 4 and 5.)

obvious that provision must be made for the differential movement of the shaft 56 in cert ,l'espondence with the value of the severe digits. The present embodiment of such provision com rehends the graduated arrangement of t e arms 58 and 60, the short arms being fixed upon the shaft in such positions that the loose arms 58 will normally i (See Fig. 5.) Thus the arm 58 at the extreme left-hand end of the series will be normally disposed at a sufficient distance below the stem-pin of the 1 key to permit independent movement of the key during eight-ninths of its stroke, after which the pin contacts with the angular end 59 of the arm 58 and swings it and the adjacent arm 60 to rock the shaft'56.

This movement of the rock-shaft is suflicient to effect one increment of movement of the master-wheel and a similar movement of the digit-carrier in mesh therewith. The several arms 58 to the right of the one whose operation has just been described are located progre'ssively in higher planes, so that the movement of said arms, and hence the movement of the rook-shaft and the operating connections between it and the master-wheel, will be increased in accordance with the increase in numerical value of the keys. Thus the arm 58 at the extreme right-hand end of the series will be normally in contact with the pin on the stem of the 9. key, so that durmg the entire stroke of the latter motion will be communicated to the master-wheel to effect nine increments of movement thereof. The retractile movement of the shaft 56 to its normal position is insured by the provision of a retracting-spring 62.

The means for preventingovemnmlng of the master-wheel, 01' its reverse movement during the retraction of the operatin' connections.- The rapid mani ulation of t e keys will obviously cause t e rotation of the masterwheel at high speed, and when this movement is extended through a considerable arc as, for instance, upon the de ression of the 9 key-the impetus gaine b the wheel tends to cause the overrunning t ereof. To prevent this excessive movement, which would obviously render the computation inaccurate, I provide a checking-arm 63, (see Figs. 3, 6, and 9,) swun from a stud 64, screwed into one side of t e actuator-frame. At its free end the arm' 63 is provided with a beak 65,- designed to bevswung up into en-;.- 

